11/30/09 PHY3145 Topics in Theoretical Physics Astrophysical Radiation Processes 2. Accelerated charges emit radiation. Dr. J. Hatchell, Physics 407, [email protected] 3145 Topics in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics Course structure 1. Radiation basics. Radiative transfer. 2. Accelerated charges produce radiation. Larmor formula. Acceleration in electric and magnetic fields – non-relativistic bremsstrahlung and gyrotron radiation. 3. Relativistic modifications I. Doppler shift and photon momentum. Thomson, Compton and inverse Compton scattering. 4. Relativisitic modifications II. Emission and arrival times. Superluminal motion and relativistic beaming. Gyrotron, cyclotron and synchrotron beaming. Acceleration in particle rest frame. 5. Bremsstrahlung and synchrotron spectra. 3145 Topics in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics 1 11/30/09 2. Accelerated charges emit radiation (a) Larmor formula for total power Examples: Coulomb interaction/Bremsstrahlung (non-rel.) (in lectures) B field / Gyrotron (non-relativistic) (homework) (b) Angular power pattern Examples: Thomson scattering (lectures) Gyrofrequency (homework) (c) Frequency spectrum via Parseval's theorem Example: Bremsstrahlung frequency spectrum (lectures, sect. 5) 3145 Topics in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics (a) Larmor’s Formula for emission from an accelerated charge The total power radiated from an accelerated, charged particle: Emitted power charge in rest frame acceleration Larmor’s formula • Valid for non-relativistic velocities (apply in particle rest frame) Derivation: PHY3143 Advanced Electromagnetism (Semester II) Griffiths Introduction to Electrodynamics sect.11.2 Longair sect. 3.3.2, Rybicki & Lightman sect. 3.3 in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics 2 11/30/09 (b) Power pattern of accelerated charge Aim: angular dependence of emitted power Power emitted into an element of solid angle dΩ: Angle between element of solid In rest frame of charge: angle and acceleration Radiation is greatest in direction perpendicular to acceleration. Examples: Thomson scattering, gyrofrequency 3145 Topics in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics (c) Larmor formula in terms of frequency Aim: Frequency spectrum from a charge under time-dependent acceleration Method: Energy integrated over time must equal energy integrated over frequency. Use Larmor's formula for power in terms of acceleration at time t and apply Parseval’s theorem to get in terms of F.T. of acceleration. Total energy: equate integral over time with integral over frequency Parseval’s theorem: See also: R&L 2.3, Longair 3.3.5 in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics 3 11/30/09 Using Larmor formula and applying Parseval’s theorem: Equating: Larmor formula in terms of frequency NB less by factor of 2 than total power formula 3145 Topics in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics (b) Power pattern example: Thomson scattering Aim: Derive angular dependence of power for classical scattering of EM field by a non-relativistic electron. Method: Treat photon as EM wave accelerating electron. Consider acceleration in plane of scattering and perpendicular to plane of scattering separately. Use Larmor’s formula (with angular dependence) to get emitted power as a function of angle. x-component of accel. (in plane of α) => y-component of accel. (perp. to plane of α) => power independent of α Result: (derivation in lectures) in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics 4 11/30/09 Thomson cross section Aims: Differential and total scattering cross-section for Thomson scattering Method: Differential scattering cross-section is defined as Differential cross-section = (power scattered into solid angle) (incident power per unit area) Total scattering cross-section given by integral over solid angle. Results (derivation in lectures): Differential using the classical Thomson electron radius cross section Thomson cross-section 3145 Topics in Theoretical Physics - radiation processes Dr J Hatchell 3145 Topics 5 .